ENV E 126 S 2C,4L/T 0.5Environmental Engineering Concepts 2
A continuation and integration of PHYS 115, ENV E 161 and 170.
Extension and application of relevant principles of Physics (vectors, forces,
equilibrium, elasticity, fluids) and descriptive geometry (points, lines,
planes, intersections, developments) as applied to environmental
engineering concerns. Exercises include laboratory experiments to
illustrate relations of the principles of physics to engineering and a team
project/experiment involving planning, conducting and reporting results in
written and oral presentations. Introduction to group dynamics. This
course will be taught to students within the Environmental Engineering
program. The intent of this course will be, in part, to provide some unity
and direction to the environmental engineering students.

ENV E 161 F 1C,1T,1L 0.25Environmental Engineering Concepts 1
An introduction to some of the basic methods and principles used
by engineers in general, and environmental engineers, in particular. The
course includes the fundamentals of technical communication,
measurement, analysis, and design. Some aspects of the engineering
profession, including standards, safety, and intellectual property. This
course will be taught in the same classroom as GEN E 165. Examples to be
utilized within the course, appropriate to environmental engineering
concerns, will be provided.

ENV E 320 W,S 3C,1T 0.5Environmental Resource Management
The impact of the use of natural resources on the ecosystem;
management of natural resources; spatial patterns of resource use and
ecological impact. The role of environmental engineering models, methods,
and modes of analysis in resource management. Capabilities and limitations
of current models. Innovation in environmental control. The legislation
process as it relates to environmental matters; factors influencing
environmental legislation and its evolution.

ENV E 330 S 3C,2LLab Analysis and Field Sampling Techniques
An introduction to the fundamental concepts of instrumentation
and measurement. Water analysis, physical parameters, membrane
application, electro-chemical probes. Direction toward how to obtain a
good sample and how it can be analyzed, frequency of monitoring, remote
sensing measuring devices and opportunities. Toward the development of
an optimum monitoring strategy.

ENV E 420 W 3C,1T 0.5Modelling of the Environment
Principles and strategies for modelling the deterministic and
stochastic systems and processes in the environment. Phenomenological
components of environment models. Interaction of designed systems with
natural systems. Assembling environment models. Study of existing models
for the environment. Parameter estimation and sensitivity studies of the
input parameters and assumptions inherent in environment models. Case
study investigations using existing models.
Cross-listed as SY DE 536

ENV E 430 F,S 9L 0.5Environmental Engineering Project 1
Students may undertake an independent Environmental
Engineering design project during the last two terms of their program. The
purpose of the project is to demonstrate students' abilities to practise in an
Environmental Engineering capacity in their chosen area of expertise,
using knowledge gained from their academic and employment experiences.
The first part of the project (ENV E 430) will include problem
identification, generation and selection of solutions and time management.
Incorporation of technical, ecological, social, political and economic issues
in the solution for the project will be required. A basic requirement of the
proposed solution is that it must be compatible with the principles of
sustainability. Requirements include: proposal, progress report, and a final
report containing recommendations for part two of the project, ENV E
431.

ENV E 431 W 9L 0.5Environmental Engineering Project 2
A continuation of ENV E 430. The final design of the major
Environmental Engineering project proposed in ENV E 430 will be
undertaken. The purpose of this phase of the project is to carry out a
detailed technical design of the solution proposed in ENV E 430.
Requirements of this part of the two-term project include a final report.

ENV E 477 W 3C,1L,1TEngineering for Solid Waste Management
The engineering aspects of solid waste management are examined.
Attention is given to the engineering design and operational aspects of the
control of generation, storage, collection, transfer and transport,
processing and disposal of solid wastes in landfill site. Design of natural
attenuation sites and system reliability features for landfill designs.

ENV E 480 F,S 3L 0.25Environmental Engineering Project
Individual research or design on any chemical engineering subject
chosen by the student in consultation with the supervising professor. A
written interim preliminary report is required.
Students enrolled in this course must take ENV E 481 in 4B.
Cross-listed as CH E 043
For Environmental Engineering students, Chemical branch